Hybrid-coupler-based radio frequency multiplexers

What is claimed is: 1. A radio frequency multiplexer, comprising: a plurality of ports including a common port, a first port for a first frequency band, a second port for a second frequency band, a third port for a third frequency band, and a fourth port for a fourth frequency band; a plurality of quadrature hybrid couplers (QHCs) including a first QHC, a second QHC, and a third QHC; a plurality of pairs of filters including a first pair of filters and a second pair of filters, wherein: the first pair of filters are coupled between the first QHC and the second QHC, and are configured to pass the second frequency band and not pass the first frequency band, the third frequency band, and the fourth frequency band; the second pair of filters are coupled between the first QHC and the third QHC, and are configured to pass the third frequency band and not pass the first frequency band, the second frequency band, and the fourth frequency band; the first QHC, the first pair of filters, and the second QHC are configured to separate the second frequency band from the common port to the second port; and the first QHC, the second pair of filters, and the third QHC are configured to separate the third frequency band from the common port to the third port; a first additional filter coupled between the first port and the first QHC, and configured to pass the first frequency band; and a second additional filter coupled between the fourth port and the first QHC, and configured to pass the fourth frequency band. 2. The radio frequency multiplexer of claim 1 wherein a passband of the first additional filter and a passband of the second additional filter have no overlap. 3. The radio frequency multiplexer of claim 1 wherein the first additional filter and the second additional filter are coupled to the first QHC via passive circuitry. 4. The radio frequency multiplexer of claim 1 further comprising a first termination resistor coupled between the second QHC and ground, and a second termination resistor coupled between the third QHC and ground. 5. The radio frequency multiplexer of claim 1 , wherein the radio frequency multiplexer is included in a front-end of a wireless communication system that supports carrier aggregation. 6. The radio frequency multiplexer of claim 1 , wherein the radio frequency multiplexer is included in a front-end of a wireless communication system that supports frequency division duplexing. 7. The radio frequency multiplexer of claim 1 , wherein the radio frequency multiplexer is included in a front-end of a multiband communication system. 8. The radio frequency multiplexer of claim 1 , wherein the radio frequency multiplexer is included in a hand portable device supporting wireless communication. 9. The radio frequency multiplexer of claim 1 , wherein the radio frequency multiplexer is included in a base station supporting a wireless communication infrastructure. 10. The radio frequency multiplexer of claim 1 , wherein the radio frequency multiplexer is included in a repeater supporting a wireless communication infrastructure. 11. The radio frequency multiplexer of claim 1 , wherein the plurality of pairs of filters include one or more of surface acoustic wave (SAW) filters and bulk acoustic wave (BAW) filters.